Example

Add. [latex] 3\sqrt{11}+7\sqrt{11}[/latex]

Answer: The two radicals are the same, [latex] [/latex]. This means you can combine them as you would combine the terms [latex] 3a+7a[/latex].

[latex] \text{3}\sqrt{11}\text{ + 7}\sqrt{11}[/latex]

Answer

[latex-display] 3\sqrt{11}+7\sqrt{11}=10\sqrt{11}[/latex-display]

Example

Add. [latex] 5\sqrt{2}+\sqrt{3}+4\sqrt{3}+2\sqrt{2}[/latex]

Answer: Rearrange terms so that like radicals are next to each other. Then add.

[latex] 5\sqrt{2}+2\sqrt{2}+\sqrt{3}+4\sqrt{3}[/latex]

Answer

[latex-display] 5\sqrt{2}+\sqrt{3}+4\sqrt{3}+2\sqrt{2}=7\sqrt{2}+5\sqrt{3}[/latex-display]

Example

Add. [latex] 3\sqrt{x}+12\sqrt[3]{xy}+\sqrt{x}[/latex]

Answer: Rearrange terms so that like radicals are next to each other. Then add.

[latex] 3\sqrt{x}+\sqrt{x}+12\sqrt[3]{xy}[/latex]

Answer

[latex-display] 3\sqrt{x}+12\sqrt[3]{xy}+\sqrt{x}=4\sqrt{x}+12\sqrt[3]{xy}[/latex-display]

Example

Add and simplify. [latex] 2\sqrt[3]{40}+\sqrt[3]{135}[/latex]

Answer: Simplify each radical by identifying perfect cubes.

[latex] \begin{array}{r}2\sqrt[3]{8\cdot 5}+\sqrt[3]{27\cdot 5}\\2\sqrt[3]{{{(2)}^{3}}\cdot 5}+\sqrt[3]{{{(3)}^{3}}\cdot 5}\\2\sqrt[3]{{{(2)}^{3}}}\cdot \sqrt[3]{5}+\sqrt[3]{{{(3)}^{3}}}\cdot \sqrt[3]{5}\end{array}[/latex]

Simplify.

[latex] 2\cdot 2\cdot \sqrt[3]{5}+3\cdot \sqrt[3]{5}[/latex]

Add.

[latex]4\sqrt[3]{5}+3\sqrt[3]{5}[/latex]

 

Answer

[latex-display] 2\sqrt[3]{40}+\sqrt[3]{135}=7\sqrt[3]{5}[/latex-display]

Example

Add and simplify. [latex] x\sqrt[3]{x{{y}^{4}}}+y\sqrt[3]{{{x}^{4}}y}[/latex]

Answer: Simplify each radical by identifying perfect cubes.

[latex]\begin{array}{r}x\sqrt[3]{x\cdot {{y}^{3}}\cdot y}+y\sqrt[3]{{{x}^{3}}\cdot x\cdot y}\\x\sqrt[3]{{{y}^{3}}}\cdot \sqrt[3]{xy}+y\sqrt[3]{{{x}^{3}}}\cdot \sqrt[3]{xy}\\xy\cdot \sqrt[3]{xy}+xy\cdot \sqrt[3]{xy}\end{array}[/latex]

Add like radicals.

[latex] xy\sqrt[3]{xy}+xy\sqrt[3]{xy}[/latex]

Answer

[latex-display] x\sqrt[3]{x{{y}^{4}}}+y\sqrt[3]{{{x}^{4}}y}=2xy\sqrt[3]{xy}[/latex-display]

Example

Subtract. [latex] 5\sqrt{13}-3\sqrt{13}[/latex]

Answer: The radicands and indices are the same, so these two radicals can be combined.

[latex] 5\sqrt{13}-3\sqrt{13}[/latex]

Answer

[latex-display] 5\sqrt{13}-3\sqrt{13}=2\sqrt{13}[/latex-display]

Example

Subtract. [latex] 4\sqrt[3]{5a}-\sqrt[3]{3a}-2\sqrt[3]{5a}[/latex]

Answer: Two of the radicals have the same index and radicand, so they can be combined. Rewrite the expression so that like radicals are next to each other.

[latex] 4\sqrt[3]{5a}+(-\sqrt[3]{3a})+(-2\sqrt[3]{5a})\\4\sqrt[3]{5a}+(-2\sqrt[3]{5a})+(-\sqrt[3]{3a})[/latex]

Combine. Although the indices of [latex] 2\sqrt[3]{5a}[/latex] and [latex] -\sqrt[3]{3a}[/latex] are the same, the radicands are not—so they cannot be combined.

[latex] 2\sqrt[3]{5a}+(-\sqrt[3]{3a})[/latex]

Answer

[latex-display] 4\sqrt[3]{5a}-\sqrt[3]{3a}-2\sqrt[3]{5a}=2\sqrt[3]{5a}-\sqrt[3]{3a}[/latex-display]

In the following video we show more examples of subtracting radical expressions when no simplifying is required. https://youtu.be/77TR9HsPZ6M

Example

Subtract and simplify. [latex] 5\sqrt[4]{{{a}^{5}}b}-a\sqrt[4]{16ab}[/latex], where [latex]a\ge 0[/latex] and [latex]b\ge 0[/latex]

Answer: Simplify each radical by identifying and pulling out powers of [latex]4[/latex].

[latex]\begin{array}{r}5\sqrt[4]{{{a}^{4}}\cdot a\cdot b}-a\sqrt[4]{{{(2)}^{4}}\cdot a\cdot b}\\5\cdot a\sqrt[4]{a\cdot b}-a\cdot 2\sqrt[4]{a\cdot b}\\5a\sqrt[4]{ab}-2a\sqrt[4]{ab}\end{array}[/latex]

Answer

[latex-display] 5\sqrt[4]{{{a}^{5}}b}-a\sqrt[4]{16ab}=3a\sqrt[4]{ab}[/latex-display]